Two-Photon EXchange -- TPEX

R. Alarcon; R. Beck; J. C. Bernauer; M. Broering; E. Cline; B. Dongwi,; I. Fernando; M. Finger; M. Finger Jr.; I. Fri\v{s}\v{c}i\'c; T. Gautam; D. K.; Hasell; O. Hen; J. Holmes; T. Horn; E. Ihloff; R. Johnston; J. Kelsey; M.; Kohl; T. Kutz; I. Lavrukhin; S. Lee; W. Lorenzon; F. Maas; H. Merkel; R. G.; Milner; P. Moran; J. Nazeer; T. Patel; M. Rathnayake; R. Raymond; R. P.; Redwine; A. Schmidt; U. Schneekloth; D. Sokhan; M. Suresh; C. Vidal

arXiv:2301.04708·nucl-ex·January 13, 2023·1 cites

Two-Photon EXchange -- TPEX

R. Alarcon, R. Beck, J. C. Bernauer, M. Broering, E. Cline, B. Dongwi,, I. Fernando, M. Finger, M. Finger Jr., I. Fri\v{s}\v{c}i\'c, T. Gautam, D. K., Hasell, O. Hen, J. Holmes, T. Horn, E. Ihloff, R. Johnston, J. Kelsey, M., Kohl, T. Kutz, I. Lavrukhin, S. Lee, W. Lorenzon

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TL;DR

This paper proposes a new high-luminosity experiment at DESY to measure positron-proton and electron-proton elastic scattering, aiming to explore contributions beyond single-photon exchange and extend the Q^2 range of current data.

Contribution

It introduces a novel experimental setup with higher luminosity and extended Q^2 range, including initial prototype tests and potential upgrades for future measurements.

Findings

01

Prototype calorimeter tests validated Monte Carlo simulations.

02

Estimated rates and backgrounds for planned measurements.

03

Potential for higher energies and broader Q^2 coverage.

Abstract

We propose a new measurement of the ratio of positron-proton to electron-proton, elastic scattering at DESY to determine the contributions beyond single-photon exchange, which are essential to the QED description of the most fundamental process in hadronic physics. A 20~cm long liquid hydrogen target together with the extracted beam from the DESY synchrotron would yield an average luminosity of $2.12 \times 1 0^{35}$ ~cm $^{- 2} \cdot$ s $^{- 1} \cdot$ sr $^{- 1}$ ( $\sim 200$ times the luminosity achieved by OLYMPUS). A commissioning run at 2 GeV followed by measurements at 3 GeV would provide new data up to $Q^{2} = 4.6$ ~(GeV/ $c$ ) $^{2}$ (twice the range of current measurements). Lead tungstate calorimeters would be used to detect the scattered leptons at polar angles of $3 0^{\circ}$ , $5 0^{\circ}$ , $7 0^{\circ}$ , $9 0^{\circ}$ , and $11 0^{\circ}$ . The measurements could be scheduled to not interfere with the operation…

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Taxonomy

TopicsParticle Detector Development and Performance · Radiation Detection and Scintillator Technologies · Particle physics theoretical and experimental studies